Ntrue0PSPMPXx6400zh13应用笔记Application Notet7899数据手册Data Sheett5202简介Fact Sheett5231选型指南Selector Guidet5281zh21MPXH6400AC6,MPXH6400AC6U,MPXHZ6400A6,MPXHZ6400AC66EnglishNXP’s MPXxx6400A series sensor integrates on-chip, bipolar op amp circuitry
and thin film resistor networks to provide a high output signal and temperature compensation.
The small form factor and high reliability of on-chip integration make this pressure
sensor a logical and economical choice for the system designer.
1070553429398721971922PSP304.5 KBNoneNonedocumentsNone1070553429398721971922/docs/en/data-sheet/MPXH6400A.pdf304467/docs/en/data-sheet/MPXH6400A.pdfMPXH6400ANN2017-06-06MPXH6400A, 20 to 400 kPa, Absolute, Integrated Pressure Sensor - Data Sheet/docs/en/data-sheet/MPXH6400A.pdf/docs/en/data-sheet/MPXH6400A.pdfData SheetNY9800009962129933402022-12-07pdfNenMar 31, 2017Data Sheett520数据手册Data SheetYNMPXH6400A, 20 to 400 kPa, Absolute, Integrated Pressure Sensor - Data Sheet20EnglishThe NXP MPXHZ6400A series sensor integrates on-chip, bipolar op amp circuitry and
thin film resistor networks to provide a high output signal and temperature compensation.
1126197466013718053116PSP234.6 KBNoneNonedocumentsNone1126197466013718053116/docs/en/data-sheet/MPXHZ6400A.pdf234558/docs/en/data-sheet/MPXHZ6400A.pdfMPXHZ6400AN2005-09-08MPXHZ6400A, Media Resistant and High Temperature Accuracy Integrated Silicon Pressure
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and Calibrated
truezhzh应用笔记Application Note931EnglishAN3956: The DEMOAPEXSENSOR is an experimental sensor board focused on pressure with
a variety of applications built into the demo. These include: Altimeter, Barometer,
Barometer Alarm, Weather station, Waterlevel, Waterlevel Alarm, Tilt, Freefall, and
Temperature Sensing. The board has been designed as a standalone board to be interfaced
currently via an LCD display and menu buttons.
1257801617439725291247PSP486.8 KBRegistration without DisclaimerNonedocumentsExtended1257801617439725291247/secured/assets/documents/en/application-note/AN3956.pdf486812/secured/assets/documents/en/application-note/AN3956.pdfAN3956documentsYN2016-10-31AN3956, DEMOAPEXSENSOR Usage - Application Notes/webapp/Download?colCode=AN3956&lang_cd=zh/secured/assets/documents/en/application-note/AN3956.pdfApplication NoteN6450366214023839892022-12-07pdfYenSep 1, 2010645036621402383989Application NoteYNAN3956, DEMOAPEXSENSOR Usage - Application Notes41EnglishWhat is the term Media Compatibility, and how does it affect Pressure Sensors? Media
is any chemical compound, in liquid, solid or gas which interacts with the sensor
where the sensing of pressure is done either directly through this chemical, or by
measuring the pressure of a gas containing a certain amount of this chemical. Media
Compatibility is presented here as the various media that our sensor can sense pressure
with, either directly or through an air column. While this document will lay groundwork
fo
1211917633286722474132PSP114.6 KBRegistration without DisclaimerNonedocumentsExtended1211917633286722474132/secured/assets/documents/en/application-note/AN3728.pdf114649/secured/assets/documents/en/application-note/AN3728.pdfAN3728documentsYN2016-10-31AN3728, Media Compatibility for IPS PRT Pressure Sensors/webapp/Download?colCode=AN3728&lang_cd=zh/secured/assets/documents/en/application-note/AN3728.pdfApplication NoteN6450366214023839892022-12-07pdfYenJul 16, 2008645036621402383989Application NoteYNAN3728, Media Compatibility for IPS PRT Pressure Sensors53EnglishSmaller package outlines and higher board densities require the need for automated
placement of components. These components are supplied in embossed carrier tape on
plastic reels to meet the increased demand and facilitate ease of handling. This application
note is intended to provide general information and understanding for handling Motorola's
surface mount pressure sensors.
1075759277354726572627PSP594.5 KBRegistration without DisclaimerNonedocumentsExtended1075759277354726572627/secured/assets/documents/en/application-note/AN1984.pdf594546/secured/assets/documents/en/application-note/AN1984.pdfAN1984documentsYN2016-10-31AN1984 Handling Freescale Pressure Sensors/webapp/Download?colCode=AN1984&lang_cd=zh/secured/assets/documents/en/application-note/AN1984.pdfApplication NoteN6450366214023839892022-12-07pdfYenFeb 2, 2007645036621402383989Application NoteYNAN1984 Handling Freescale Pressure Sensors62EnglishA digital output is more desirable than an analog output in noisy environments (e.g.,
automotive, washing machines, etc.) and remote sensing applications (building controls,
industrial applications, etc.) because a digital signal inherently has better noise
immunity compared to analog signals. Additional applications requiring a sensor with
a digital output include microcontroller-based systems that have no A/D in the system
or that have no A/D channels available for the sensing function. For these applica
E966580725660PSP232.0 KBRegistration without DisclaimerNonedocumentsExtendedE966580725660/secured/assets/documents/en/application-note/AN1586.pdf232022/secured/assets/documents/en/application-note/AN1586.pdfAN1586documentsYN2016-10-31AN1586, Designing a Homemade Digital Output for Analog Voltage Output Sensors/webapp/Download?colCode=AN1586&lang_cd=zh/secured/assets/documents/en/application-note/AN1586.pdfApplication NoteN6450366214023839892022-12-07pdfYenFeb 2, 2007645036621402383989Application NoteYNAN1586, Designing a Homemade Digital Output for Analog Voltage Output Sensors71.0EnglishAN3150: Pressure sensor devices require the internal cavity containing the silicon
transducer to be exposed to ambient in order for the device to function. Exposed cavity
packages require special considerations during board assembly to prevent damage to
the device during soldering and subsequent cleaning operations.
1139865857339705906783PSP206.1 KBRegistration without DisclaimerNonedocumentsExtended1139865857339705906783/secured/assets/documents/en/application-note/AN3150.pdf206104/secured/assets/documents/en/application-note/AN3150.pdfAN3150documentsYN2016-10-31AN3150, Soldering Recommendations for Pressure Sensor Devices - Application Notes/webapp/Download?colCode=AN3150&lang_cd=zh/secured/assets/documents/en/application-note/AN3150.pdfApplication NoteN6450366214023839892022-12-07pdfYenFeb 22, 2006645036621402383989Application NoteYNAN3150, Soldering Recommendations for Pressure Sensor Devices - Application Notes82EnglishThe popular silicon pressure sensors are piezoresistive bridges that produce a differential
output voltage in response o pressure applied to a thin silicon diaphragm. Output
voltage for these sensors is generally 25 to 50 mV full scale.
W966580664994PSP354.6 KBRegistration without DisclaimerNonedocumentsExtendedW966580664994/secured/assets/documents/en/application-note/AN1318.pdf354591/secured/assets/documents/en/application-note/AN1318.pdfAN1318documentsYN2016-10-31AN1318 Interfacing Semiconductor Pressure Sensors to Microcomputers/webapp/Download?colCode=AN1318&lang_cd=zh/secured/assets/documents/en/application-note/AN1318.pdfApplication NoteN6450366214023839892022-12-07pdfYenMay 16, 2005645036621402383989Application NoteYNAN1318 Interfacing Semiconductor Pressure Sensors to Microcomputers92EnglishBar Graph displays are noted for their ability to very quickly convey a relative sense
of how much of something is present.They are particularly useful in process monitoring
applications where quick communication of a relative value is more important than
providing specific data.
W966580668920PSP297.6 KBRegistration without DisclaimerNonedocumentsExtendedW966580668920/secured/assets/documents/en/application-note/AN1322.pdf297614/secured/assets/documents/en/application-note/AN1322.pdfAN1322documentsYN2016-10-31AN1322 Applying Semiconductor Sensors to Bar Graph Pressure Gauges/webapp/Download?colCode=AN1322&lang_cd=zh/secured/assets/documents/en/application-note/AN1322.pdfApplication NoteN6450366214023839892022-12-07pdfYenMay 16, 2005645036621402383989Application NoteYNAN1322 Applying Semiconductor Sensors to Bar Graph Pressure Gauges102EnglishIntroduction PSPICE models for Uncompensated, MPX2000 series, and MPX5000 series pressure
sensors are presented here. These models use compound coefficients to improve modeling
of temperature dependent behavior. The discussion begins with an overview of how the
models are structured, and is followed by an explanation of compound coefficients.
The emphasis is on how to use these models to estimate sensor performance. They can
be found electronically on a disk included in ASB200 Sensor Development Controller
F966580790271PSP263.6 KBRegistration without DisclaimerNonedocumentsExtendedF966580790271/secured/assets/documents/en/application-note/AN1660.pdf263626/secured/assets/documents/en/application-note/AN1660.pdfAN1660documentsYN2016-10-31AN1660, Compound Coefficient Pressure Sensor PSPICE Models/webapp/Download?colCode=AN1660&lang_cd=zh/secured/assets/documents/en/application-note/AN1660.pdfApplication NoteN6450366214023839892022-12-07pdfYenMay 1, 2005645036621402383989Application NoteYNAN1660, Compound Coefficient Pressure Sensor PSPICE Models112EnglishThe Integrated Pressure Sensors (IPS) have trimmed outputs, built-in temperature compensation
and an amplified single-ended output which make them compatible with Analog to Digital
converters (A/Ds) on low cost micro-controllers. Although 8-bit A/Ds are common, higher
resolution A/Ds are becoming increasingly available. With these higher resolution
A/Ds, the noise that is inherent to piezo-resistive bridges becomes a design consideration.
J966580770359PSP261.9 KBRegistration without DisclaimerNonedocumentsExtendedJ966580770359/secured/assets/documents/en/application-note/AN1646.pdf261850/secured/assets/documents/en/application-note/AN1646.pdfAN1646documentsYN2016-10-31AN1646, Noise Considerations for Integrated Pressure Sensors/webapp/Download?colCode=AN1646&lang_cd=zh/secured/assets/documents/en/application-note/AN1646.pdfApplication NoteN6450366214023839892022-12-07pdfYenMay 1, 2005645036621402383989Application NoteYNAN1646, Noise Considerations for Integrated Pressure Sensors简介Fact Sheet11213EnglishOverview Over the past 25 years, NXP Semiconductors Sensor Products Division has supplied
the world with more than 650 million micro-electromechanical systems (MEMS)-based
sensors.
1092086607381736729272PSP2.2 MBNoneNonedocumentsNone1092086607381736729272/docs/en/fact-sheet/SNSRSOLUTNTMFS.pdf2216251/docs/en/fact-sheet/SNSRSOLUTNTMFS.pdfSNSRSOLUTNTMFSdocumentsNN2016-10-31Sensor Solutions/docs/en/fact-sheet/SNSRSOLUTNTMFS.pdf/docs/en/fact-sheet/SNSRSOLUTNTMFS.pdfFact SheetN7366754741633153142025-02-25pdfNenFeb 12, 2020736675474163315314Fact SheetYNSensor Solutions选型指南Selector Guide11313EnglishFor system designers who want to work with various sensor types such as accelerometers,
pressure sensors and magnetic sensors for applications in automotive, industrial IoT
and medical.
1424471489332715853854PSP253.0 KBNoneNonedocumentsNone1424471489332715853854/docs/en/product-selector-guide/SENSSELECT.pdf252964/docs/en/product-selector-guide/SENSSELECT.pdfSENSSELECTdocumentsNN2016-10-31Sensor Product Selector Guide/docs/en/product-selector-guide/SENSSELECT.pdf/docs/en/product-selector-guide/SENSSELECT.pdfSelector GuideN5535579352748077772025-02-25pdfNenMay 13, 2024553557935274807777Selector GuideYNSensor Product Selector Guidefalse0MPXx6400downloadszh-Hanstrue1YPSP应用笔记9/secured/assets/documents/en/application-note/AN3956.pdf2016-10-311257801617439725291247PSP3Sep 1, 2010Application NoteAN3956: The DEMOAPEXSENSOR is an experimental sensor board focused on pressure with
a variety of applications built into the demo. These include: Altimeter, Barometer,
Barometer Alarm, Weather station, Waterlevel, Waterlevel Alarm, Tilt, Freefall, and
Temperature Sensing. The board has been designed as a standalone board to be interfaced
currently via an LCD display and menu buttons.
Registration without Disclaimer/secured/assets/documents/en/application-note/AN3956.pdfEnglishdocuments486812None6450366214023839892022-12-07Y/webapp/Download?colCode=AN3956&lang_cd=zhAN3956, DEMOAPEXSENSOR Usage - Application Notes/secured/assets/documents/en/application-note/AN3956.pdfdocuments645036621402383989Application NoteNenExtendedYpdf1YNAN3956, DEMOAPEXSENSOR Usage - Application Notes486.8 KBAN3956N1257801617439725291247/secured/assets/documents/en/application-note/AN3728.pdf2016-10-311211917633286722474132PSP4Jul 16, 2008Application NoteWhat is the term Media Compatibility, and how does it affect Pressure Sensors? Media
is any chemical compound, in liquid, solid or gas which interacts with the sensor
where the sensing of pressure is done either directly through this chemical, or by
measuring the pressure of a gas containing a certain amount of this chemical. Media
Compatibility is presented here as the various media that our sensor can sense pressure
with, either directly or through an air column. While this document will lay groundwork
fo
Registration without Disclaimer/secured/assets/documents/en/application-note/AN3728.pdfEnglishdocuments114649None6450366214023839892022-12-07Y/webapp/Download?colCode=AN3728&lang_cd=zhAN3728, Media Compatibility for IPS PRT Pressure Sensors/secured/assets/documents/en/application-note/AN3728.pdfdocuments645036621402383989Application NoteNenExtendedYpdf1YNAN3728, Media Compatibility for IPS PRT Pressure Sensors114.6 KBAN3728N1211917633286722474132/secured/assets/documents/en/application-note/AN1984.pdf2016-10-311075759277354726572627PSP5Feb 2, 2007Application NoteSmaller package outlines and higher board densities require the need for automated
placement of components. These components are supplied in embossed carrier tape on
plastic reels to meet the increased demand and facilitate ease of handling. This application
note is intended to provide general information and understanding for handling Motorola's
surface mount pressure sensors.
Registration without Disclaimer/secured/assets/documents/en/application-note/AN1984.pdfEnglishdocuments594546None6450366214023839892022-12-07Y/webapp/Download?colCode=AN1984&lang_cd=zhAN1984 Handling Freescale Pressure Sensors/secured/assets/documents/en/application-note/AN1984.pdfdocuments645036621402383989Application NoteNenExtendedYpdf3YNAN1984 Handling Freescale Pressure Sensors594.5 KBAN1984N1075759277354726572627/secured/assets/documents/en/application-note/AN1586.pdf2016-10-31E966580725660PSP6Feb 2, 2007Application NoteA digital output is more desirable than an analog output in noisy environments (e.g.,
automotive, washing machines, etc.) and remote sensing applications (building controls,
industrial applications, etc.) because a digital signal inherently has better noise
immunity compared to analog signals. Additional applications requiring a sensor with
a digital output include microcontroller-based systems that have no A/D in the system
or that have no A/D channels available for the sensing function. For these applica
Registration without Disclaimer/secured/assets/documents/en/application-note/AN1586.pdfEnglishdocuments232022None6450366214023839892022-12-07Y/webapp/Download?colCode=AN1586&lang_cd=zhAN1586, Designing a Homemade Digital Output for Analog Voltage Output Sensors/secured/assets/documents/en/application-note/AN1586.pdfdocuments645036621402383989Application NoteNenExtendedYpdf2YNAN1586, Designing a Homemade Digital Output for Analog Voltage Output Sensors232.0 KBAN1586NE966580725660/secured/assets/documents/en/application-note/AN3150.pdf2016-10-311139865857339705906783PSP7Feb 22, 2006Application NoteAN3150: Pressure sensor devices require the internal cavity containing the silicon
transducer to be exposed to ambient in order for the device to function. Exposed cavity
packages require special considerations during board assembly to prevent damage to
the device during soldering and subsequent cleaning operations.
Registration without Disclaimer/secured/assets/documents/en/application-note/AN3150.pdfEnglishdocuments206104None6450366214023839892022-12-07Y/webapp/Download?colCode=AN3150&lang_cd=zhAN3150, Soldering Recommendations for Pressure Sensor Devices - Application Notes/secured/assets/documents/en/application-note/AN3150.pdfdocuments645036621402383989Application NoteNenExtendedYpdf1.0YNAN3150, Soldering Recommendations for Pressure Sensor Devices - Application Notes206.1 KBAN3150N1139865857339705906783/secured/assets/documents/en/application-note/AN1318.pdf2016-10-31W966580664994PSP8May 16, 2005Application NoteThe popular silicon pressure sensors are piezoresistive bridges that produce a differential
output voltage in response o pressure applied to a thin silicon diaphragm. Output
voltage for these sensors is generally 25 to 50 mV full scale.
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of how much of something is present.They are particularly useful in process monitoring
applications where quick communication of a relative value is more important than
providing specific data.
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sensors are presented here. These models use compound coefficients to improve modeling
of temperature dependent behavior. The discussion begins with an overview of how the
models are structured, and is followed by an explanation of compound coefficients.
The emphasis is on how to use these models to estimate sensor performance. They can
be found electronically on a disk included in ASB200 Sensor Development Controller
Registration without Disclaimer/secured/assets/documents/en/application-note/AN1660.pdfEnglishdocuments263626None6450366214023839892022-12-07Y/webapp/Download?colCode=AN1660&lang_cd=zhAN1660, Compound Coefficient Pressure Sensor PSPICE Models/secured/assets/documents/en/application-note/AN1660.pdfdocuments645036621402383989Application NoteNenExtendedYpdf2YNAN1660, Compound Coefficient Pressure Sensor PSPICE Models263.6 KBAN1660NF966580790271/secured/assets/documents/en/application-note/AN1646.pdf2016-10-31J966580770359PSP11May 1, 2005Application NoteThe Integrated Pressure Sensors (IPS) have trimmed outputs, built-in temperature compensation
and an amplified single-ended output which make them compatible with Analog to Digital
converters (A/Ds) on low cost micro-controllers. Although 8-bit A/Ds are common, higher
resolution A/Ds are becoming increasingly available. With these higher resolution
A/Ds, the noise that is inherent to piezo-resistive bridges becomes a design consideration.
Registration without Disclaimer/secured/assets/documents/en/application-note/AN1646.pdfEnglishdocuments261850None6450366214023839892022-12-07Y/webapp/Download?colCode=AN1646&lang_cd=zhAN1646, Noise Considerations for Integrated Pressure Sensors/secured/assets/documents/en/application-note/AN1646.pdfdocuments645036621402383989Application NoteNenExtendedYpdf2YNAN1646, Noise Considerations for Integrated Pressure Sensors261.9 KBAN1646NJ966580770359数据手册2/docs/en/data-sheet/MPXH6400A.pdf2017-06-061070553429398721971922PSP1Mar 31, 2017Data Sheet数据手册NXP’s MPXxx6400A series sensor integrates on-chip, bipolar op amp circuitry
and thin film resistor networks to provide a high output signal and temperature compensation.
The small form factor and high reliability of on-chip integration make this pressure
sensor a logical and economical choice for the system designer.
None/docs/en/data-sheet/MPXH6400A.pdfEnglish304467NoneData Sheet2022-12-07N/docs/en/data-sheet/MPXH6400A.pdfMPXH6400A, 20 to 400 kPa, Absolute, Integrated Pressure Sensor - Data Sheet/docs/en/data-sheet/MPXH6400A.pdfdocuments980000996212993340Data SheetNYenNoneYt520pdf6NNMPXH6400A, 20 to 400 kPa, Absolute, Integrated Pressure Sensor - Data SheetMPXH6400AC6,MPXH6400AC6U,MPXHZ6400A6,MPXHZ6400AC6304.5 KBMPXH6400AN1070553429398721971922/docs/en/data-sheet/MPXHZ6400A.pdf2005-09-081126197466013718053116PSP2Aug 1, 2005Data Sheet数据手册The NXP MPXHZ6400A series sensor integrates on-chip, bipolar op amp circuitry and
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the world with more than 650 million micro-electromechanical systems (MEMS)-based
sensors.
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pressure sensors and magnetic sensors for applications in automotive, industrial IoT
and medical.
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